cgPl2—MARCUS VIPSANIUS AGRIPPA—HIS MAP GAIUS PLINIUS SECUNDUS—HIS TEXT ABSTRACT Marcus Vipsanius Agrippa was tasked with the production of a map, not a map of the Roman Empire c20BCE, but a map of the whole known world. Pliny the Elder wrote his reference work, “Natural History” c77CE, well after the death of Agrippa in 12BCE. But, Pliny obviously viewed the finished map which had been erected or displayed in a public area, the Porticus Vipsania. The source of the geographical data within Pliny’s text is mostly attributed to Agrippa and appears to come from the commentary written to accompany the world map. Thus by extracting the data attributable to Agrippa for geographical, and then the astronomical/astrological facts contained within Pliny’s text, we can unravel the dubious extant reconstructions of the past and indicate hitherto un-researched facets of the text. This has enabled a new interpretation of those facts to be made, and thus the possibility to describe and draw a map more akin to the original by Agrippa. The previous text, cgPl1, contains much of the research for this text. It has not been repeated, merely referenced. This paper contains 17 A4 pages of text and 24 A4 full colour diagrams. cgPl2—MARCUS VIPSANIUS AGRIPPA—HIS MAP GAIUS PLINIUS SECUNDUS—HIS TEXT SYNOPSIS The text within Pliny’s “Natural History”, Book 6, Chapter 39, entitled”Divisions of the earth into Parallels and Shadows of equal length,” discusses the lines or segments which divide the world; Roman Circles and Greek Parallels. However, at first glance the Latitudes and Climates of equinoctial hours do not agree, nor are they regular in their subdivision, but a mis-match of alignments. Under the 6th division we are informed of one “Nigidius” who was in fact an astrologer and thus the subject of the heavens and the stars with their influence upon the earth in one very striking manner must be researched if we are to unravel the incredible vagaries that are contained within Book 6, Chapter 39. BACKGROUND It was the ancient Greeks who commenced investigating scientific matters in a logical and progressive manner. They had the preparatory works of the Mesopotamians, 1 Babylonians, Chaldeans etc, but, enhanced the research into mathematics, geometry, geography, poetry, music and of course the written word. Their geographers speculated upon the form of the earth and indeed correctly identified the earth as a globe in a sun-centred universe. The fact that the earth was tilted in its plane of travel and there was a slight wobble in its tilt led to the ecliptic and precession being defined. Many of the astronomical and astrological phenomena first explained by the Babylonians etc were used to expand their knowledge and gradually filled the night sky with the Heroes and fantastic animals we now discuss when viewing the star clusters. Then the Romans arrived, very different peoples who, whilst appreciating Greek philosophy, learning and technical ability endeavoured to become their betters in many fields. But, thanks to the Roman acceptance of other cultures, religions and use of their technical knowledge, Greek methodology was maintained alongside the Roman and enhanced in the one field most interesting to us, Cartography. EQUATOR OR ECLIPTIC Diagrams cgPl2D01 and cgPl2D02 Perhaps the first Greek geographer to teach the doctrine of the Earth as a sphere was “THALES” c640BCE. He also clearly stated that the equator of the earth was cut by the line of the earth’s orbit against the background stars, the Ecliptic. However, astronomy had been developed in the Mesopotamian region and inscriptions from there found on clay tablets, plus texts from the Egyptian Temples and Pyramids of the same era are evidence of those astronomical cultures from before c3000BCE. Indeed at Denderah on the River Nile, within one of the roof chapels dedicated to Osiris and his resurrection, the ceiling had a unique Zodiac. Unfortunately it was removed by French collectors in 1800CE, is now in the Louvre, but has been replaced by a plaster cast. Thus the stars and their given names and property’s were very important to these civilisations including the Romans. These civilisations noted that as the Earth travelled through space circumnavigating the Sun certain star formations were repeatedly observed year by year. The Babylonians had already divided the circle into 360 divisions or degrees and their sexagesimal system allowed for the 12 major star formations to be determined upon the Earth’s circuit of the Sun. This led to the band of stars having not only a circular dimension, but, also a band width either side of the plane of the Earth’s travel, the ecliptic, when viewed from earth. Transfer the circle and band width by two further circles onto the face of the earth and correct for the tilt, then the Equator plus the Tropics of Cancer and Capricorn are formed. Then, as there are 12 signs of the zodiac and 12 months of the year, when a Star sign cut the Equator the dates for each action could be established and Astrology, “good luck” or similar prognostications were born. ASTROLOGICAL LATITUDES Diagram cgPl2D03 2 For our purposes the Star signs are less important than the Ecliptic and Tropics. Those angular lines set at c24 degrees to the Equator, when transferred to the globe and set at 24 degrees north and south of the Equator can provide us with a totally different form of what we now know as Latitude and Longitude. Thus from a given point on the earth’s surface a graticule can be drawn based upon the Babylonian 360 degrees or 6 x 60 degrees (as Eratosthenes chose) set at c24 degrees incline to the equatorial line. However, that is not the only possibility. The equatorial line and the two tropics also form secondary angular alignments by utilising all three lines. That is from the Tropic of Cancer to the Equator and then from the Equator to the Tropic of Capricorn. The diagonal lines joining the pairs are secondary ecliptics and of course are parallel and at c12 degrees to the Equator. Thus astrologers and geographers had a choice of graticule to utilize when constructing a map of the oikoumene or the world. CLIMA OR CLIMATE Diagram cgPl2D04 CLIMA—Κλίμα The Greek word Clima is literally a slope or inclination. Geographically it is supposed to be the slope of the Earth’s surface and is used by Romans such as Vitruvius in its Latin form of “inclination” (and also declination and divergentia). Plutarch1 (157-86 BCE) wrote about the Cimbrii, “geographically they are situated under that part of the sky where, because of the declination of the parallels, the pole has a great elevation and appears to be not far from the zenith: and the year is divided into two equal periods, one of night and one of day.” Thus it would appear Plutarch is discussing the zenith as the vault of the heavens with the pole star there-at. With declination of parallels and a great elevation for the Pole we can assume sloping or ecliptic parallels, or else the pole has no parallel as such. It is important that the first paragraph regarding “Clima” from W. Smith’s Dictionary2 of Greek and Roman Antiquities (1875) is quoted here; “Clima (Κλίμα), literally a slope or inclination, was used in the mathematical geography of the Greeks with reference to the inclination of various parts of the earth‟s surface to the plane of the equator. Before the globular figure of the earth was known, it was supposed that there was a general slope of its surface from south to north, and this was called Κλίμα. But as the science of mathematical geography advanced, the word was applied to different belts of the earth‟s surface, which were determined by the different lengths of the longest day at their lines of demarcation. The division into climates was applied only to the northern hemisphere, as geographers had no practical knowledge of the earth south of the equator.” An inclination to the plane of the equator is precisely the ecliptic and its parallels found by the apparent progress of the earth across the star signs of the heavens. Thus it is possible to opine that the original Greek Clima were derived from 3 Babylonian astronomy/astrology and paralleled the ecliptic or its semi-part and originally the graticules dividing the earth’s surface into zones/bands were inclined to the equator. COMMENT In his monograph, J.J. Tierney3 sums up the situation as follows; “In the first place the heading of Pliny‟s chapter on the parallels, cap.39, section 211, refers obviously to all that follows as far as the end of Book VI, and shows that the complete passage is taken from Greek sources. His proximate source he, moreover, names in section 217, according to his usual custom, as Nigidius Figulus. Detlefsen pointed this out in 1909, and Kroll (after Honigmann) throws further light on the subject in his article on Nigidius in R.E.XVII, 200-212 (1936). Pliny‟s seven klimata are a piece of astrological geography and derive through Nigidius from Serapion of Antioch, who was probably a pupil of Hipparchus, or if not was a student of his work. Nigidius was a notorious student of the occult and his astrological geography was contained in a work apparently entitled “de terries”. This work seems to have included his commentary on the “sphaera Graecanica” describing the Greek constellations and his “sphaera barbaric” on the non-Greek constellations. Nigidius‟s “barbaric sphere” was derived from the like named work of Asclepiades of Myrlea.
Details
-
File Typepdf
-
Upload Time-
-
Content LanguagesEnglish
-
Upload UserAnonymous/Not logged-in
-
File Pages17 Page
-
File Size-